Dechanneling Left Atrial Late Gadolinium Enhancement.

S. Nazarian, F. Marchlinski
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Abstract

Beginning with initial reports of catheter ablation with high-energy direct current shocks for focal and simple arrhythmias in the early 1980s,1 catheter ablation technology and our understanding of arrhythmia mechanisms have rapidly evolved. The identification of left atrial muscular extensions in the pulmonary veins (PVs) by Haïssaguerre et al2 in 1998 opened the era of catheter ablation for suppression of atrial fibrillation (AF). The initial strategy of focal PV trigger ablation was limited by the variability in induction and mapping of the foci, as well as PV stenoses after ablation deep in the veins. To eliminate the need for identification and ablation of individual foci deep in the PVs, ostial isolation of the PV was pursued. Over time, this approach has evolved to an antral PV isolation technique resulting in wide-area circumferential ablation, which mitigates the likelihood of PV stenosis, includes more potential triggers within the isolation zone, and is more likely to modify periatrial autonomic inputs. With wide-area circumferential ablation, however, the ablation circumference has increased, thus increasing the potential for inadvertent gaps in ablation lesions. In addition, strategies such as linear ablation have been implemented in difficult cases, thus adding to the possibility that gaps may exist, and paths for initiation and maintenance of fixed reentry may be created after the procedure. The observation of reentrant atrial tachycardia (AT) after AF ablation is therefore not only related to the burden of de novo scar but also the presence of gaps in linear lesions or wide-area circumferential ablation. Approximately two thirds of post-AF ablation patients with an AT immediately after their ablation will have persistent AT after the healing period. Entrainment mapping strategies can be successfully applied to identify and target these circuits.3 Cardiac imaging with computed tomography or cardiac magnetic resonance (CMR) has long been implemented for creation of 3-dimensional segmentations for enhanced procedural guidance. Most commonly, this approach can be used to tailor lesion delivery to individual variations in left atrial geometry and PV anatomy. In 2007, a study from Peters et al4 suggested that late gadolinium enhancement (LGE) CMR could visualize left atrial lesions after PV isolation. LGE CMR was later championed by Marrouche et al5 to enhance the stratification of potential candidates for AF ablation. In this issue of Circulation: Arrhythmia and Electrophysiology, Fochler et al6 describe LGE CMR-based dechanneling as a strategy to treat reentrant AT after AF ablation. They report a retrospective analysis of 102 patients who underwent EP study and mapping after an initial AF ablation with CMR before each ablation. The authors confirm that a strategy of left atrial linear lesion sets at the index procedure associated with AT after ablation. Of 102 patients, 46 presented with AF only EDITORIAL
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左房晚期钆增强去通道。
从20世纪80年代早期关于用高能量直流冲击进行导管消融治疗局灶性和单纯性心律失常的初步报道开始,导管消融技术和我们对心律失常机制的理解迅速发展。1998年Haïssaguerre等人2发现肺静脉左心房肌伸,开启了导管消融抑制心房颤动(AF)的时代。局部PV触发消融的初始策略受到病灶诱导和定位的可变性以及深部静脉消融后PV狭窄的限制。为了消除对PV深部单个病灶的识别和消融的需要,我们对PV进行了口腔隔离。随着时间的推移,这种方法已经发展成为一种室内外间隔隔离技术,导致广域的周向消融,从而降低了室内外间隔狭窄的可能性,在隔离区内包括更多的潜在触发因素,并且更有可能改变房周自主神经输入。然而,广域环向消融增加了消融周长,从而增加了消融病变中无意间隙的可能性。此外,在困难的病例中已经实施了线性消融等策略,从而增加了可能存在间隙的可能性,并且可以在手术后创建启动和维持固定再入的路径。因此,房颤消融后再入性房性心动过速(AT)的观察不仅与新生瘢痕的负担有关,还与线状病变或广域环形消融间隙的存在有关。大约三分之二的房颤消融后立即出现AT的患者在愈合期后会出现持续性AT。夹带映射策略可以成功地应用于识别和定位这些电路长期以来,计算机断层扫描或心脏磁共振(CMR)的心脏成像一直被用于创建三维分割,以增强程序指导。最常见的是,这种方法可以根据左心房几何形状和PV解剖结构的个体变化来定制病变递送。2007年,Peters等人的一项研究4表明,晚期钆增强(LGE) CMR可以显示PV分离后左心房病变。随后,Marrouche等人倡导LGE CMR,以加强房颤消融潜在候选的分层。在这一期的《循环:心律失常和电生理学》中,Fochler等人6描述了基于LGE cmr的脱通道作为治疗房颤消融后再入性AT的策略。他们报告了102例患者的回顾性分析,这些患者在每次消融前使用CMR进行初始心房颤动消融后进行EP研究和绘图。作者证实,左心房线状病变的策略设置在消融后与at相关的指数程序。102例患者中,46例仅表现为房颤
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